Catheter insertion device

ABSTRACT

The present disclosure relates to a catheter insertion device, which comprises a catheter hub in which a check valve is arranged, and a catheter, which is in fluid communication with the catheter hub, wherein a support element is attached to the catheter, and a flexible buffer element is provided between the support element and the catheter hub.

CROSS-REFERENCE TO RELATED APPLICATIONS

This is a national phase application under 35 U.S.C. §371 of PCTApplication No. PCT/EP2010/006018 filed Oct. 1, 2010, which claims thebenefit of German application No. 20 2009 013 213 7 filed Oct. 1, 2009,the contents of each of which are expressly incorporated herein byreference.

FIELD OF ART

The present disclosure relates to a catheter insertion device in whosecatheter hub a check valve is provided, which prevents the leakage ofblood from the catheter hub when the catheter is inserted into the veinof a patient and the needle is removed from the catheter hub.

BACKGROUND

From WO 2004/004819 (FIGS. 1 and 2), such a catheter insertion device isknown, having a catheter hub at whose distal end a catheter is attachedand in which a check valve is arranged, through which the needle extendsin the ready position, wherein the needle tip protrudes distally fromthe catheter. After retracting the needle out of the catheter hub, thecheck valve closes automatically, whereupon for example an IV line isattached to the catheter hub so that after opening of the check valve anIV fluid can be introduced into the vein of the patient. Hereby, forexample by means of a valve actuation element, the check valve can beopened by pressure in the distal direction. This pressure is transferredto the catheter inserted in the vein of the patient, so that above allin the case of the valve being repeatedly opened and of the relatedhandling of the relatively bulky catheter hub, mechanically inducedphlebitis can occur in the patient.

Furthermore, during handling of the catheter insertion device, theproblem frequently occurs of the catheter becoming bent. This problem ofbecoming bent occurs, for example, when the catheter hub is fixed on theskin of the patient, as illustrated by means of FIG. 9. By becomingbent, the catheter becomes unusable and has to be removed, whereupon anew catheter has to be inserted.

SUMMARY

By means of the present disclosure, a catheter insertion device is to beprovided, by means of which handling is improved with regard toprotection from becoming bent, and mechanically induced phlebitis can beprevented even when, for treating the patient, the valve in the catheterhub has to be repeatedly opened by pressure in the distal direction.

According to the present method, system and device, a support elementfor the catheter on the skin of the patient is provided between thedistal end of the catheter and the catheter hub, and a flexible bufferelement is provided between the support element and the catheter hub,especially as an easily deformable, flexible hose line, so that onopening the check valve, forces occurring at the catheter hub areabsorbed by the deformation of this flexible hose line and the remainingforces are absorbed by the support element on the skin of the patient,so that no movements are induced at the distal end portion of thecatheter positioned in the vein when the check valve in the catheter hubis opened.

Protection from becoming bent is achieved by means of the flexiblebuffer element or by means of the flexible hose line between the supportelement and the catheter hub, in that a possible bend occurs in the areaof this flexible hose line, which can be bent straight again, so that nodamage occurs to the catheter itself and the uninterrupted passage ofthe fluid is guaranteed.

Preferably, the flexible and easily deformable hose line is formedbetween the catheter hub and the support element, independently of thecatheter, which extends between the support element and the distal end.

Further aims, advantages, features and application options of thepresent method, system and device follow from the following descriptionof the embodiments with reference to the drawings. Hereby, all thefeatures described and/or represented by the drawing form the subjectmatter of the present method, system and device in themselves or in anymeaningful combination, independently of their summary in the claims andthe back-references thereof.

BRIEF DESCRIPTION OF THE FIGURES

Exemplary embodiments of the present method, system and device areexplained in more detail below with reference to the drawings, in which:

FIG. 1 shows a catheter insertion device of the known type,

FIG. 2 shows the insertion of a syringe in the known catheter hub,

FIG. 3 shows in section an embodiment according to the present method,system and device having a support element,

FIG. 4 shows an embodiment having wings on the support element,

FIG. 5 shows an embodiment having a valve opener in the catheter hub,

FIG. 6 shows an embodiment having a valve opener and a needle guardelement,

FIG. 7 shows an embodiment having a needle guard element in the catheterhub,

FIG. 8 shows an embodiment in which the needle is provided with anextraction wire,

FIG. 9 shows possible bending of the catheter during handling, and

FIG. 10 shows a modified embodiment.

DETAILED DESCRIPTION

The known catheter insertion device 1 in FIGS. 1 and 2 has a two-partcatheter hub 5, wherein between the two elements 5.1 and 5.2 of thecatheter hub 5, a disc-shaped check valve 7 is held, which for examplehas slits starting radially from the middle, through which the needle 9extends in the ready position (FIG. 1), wherein the needle is held inthe needle hub 8. The tip 9 a of the needle 9 protrudes over the distalend of the catheter 4 in the ready position. As FIG. 1 a shows, astopper 8 a which catches blood is usually provided at the end of theneedle hub 8. The stopper which catches blood is provided with amembrane being air-permeable but not blood-permeable. In the catheterhub 5, a valve actuation element 10 is arranged having an approximatelytruncated cone-shaped front part 10 a and two diametrically oppositestays 10 b. Between these stays, in the ready position, a needle guardelement 13 is located which, by means of the removal of the needle 9from the catheter hub 5 is removed from the catheter hub 5 and coversthe needle tip, after a crimp 9.1 on the needle (shown in FIG. 7) hasengaged the proximal rear wall of the needle guard element 13. At 5 a, astop is shown for the valve actuating element 10 which is displaceablein the catheter hub. At 6, a Luer thread is indicated.

FIG. 2 shows the insertion of a syringe 14 in the catheter hub 5,wherein a distal hub 14 a displaces the valve actuation element 10 inthe catheter hub forwards and opens the valve 7, whose deformed flapsbetween the slits are designated by 7 b. It is obvious that wheninserting the syringe 14 in the catheter hub 5, a force P acting in thedistal direction is exerted on the catheter hub 5 and thus on thecatheter 4, which consists of relatively rigid material. During handlingof the catheter hub 5, which is relatively bulky due to the integratedcheck valve 7, moments of torsion can also be exerted on the catheter 4,by which irritation at the vein is increased.

FIG. 3 schematically shows an embodiment according to the presentmethod, system and device having a support element 20, which has anapproximately tubular main body 20.1 with a support area 20.2 forabutting of the support element 20 on the skin of the patient. Thesupport element 20 is formed flat and only slightly higher than the hoseline 40. Because the support element 20 is formed very flat, it canhardly be unintentionally jolted, as in the case for the relatively highcatheter hub. The catheter 4 is fixed in the support element 20preferably by means of a metal or plastic hub 21, wherein the catheterconsists of a relatively rigid material, usually of fluorinated ethylenepropylene (FEP), in other words Teflon. On the proximal side of thesupport element 20, between the catheter hub 5 and the support element aflexible and easily deformable hose line 40 is provided, which is fixedto the tubular main body 20.1 of the support element 20 by heat-sealingor by means of solvent bonding, if both the support element 20 and theflexible hose line 40 consist of the same soft material. At the catheterhub 5, the flexible hose line 40 can expediently be fixed by means of ametal or plastic hub 3, which has a funnel-shaped hub. The flexible hoseline 40 and the support element 20 are preferably manufactured from softPVC or soft polyurethane. The catheter hub 5 preferably consists of amore rigid polypropylene.

If the flexible hose line 40 and the support element 20 consist of thesame soft material, the hose line 40 can also be moulded onto thesupport element 20. This allows the support element 20 to be formed justas high as the hose line 40.

The flexible, easily deformable hose line 40 forms a buffer elementbetween support element 20 and catheter hub 5 for receiving the forcesoccurring at the catheter hub 5 during handling, when an IV line is tobe attached to the catheter hub 5 or a syringe is to be inserted in thecatheter hub. Hereby, both forces in the axial direction can occur atthe catheter hub 5, as indicated by an arrow P, and torsional momentscan occur, which are absorbed by the buffer element in the form of theflexible hose line 40, so that at the distal end of the catheter 4, nomechanically induced irritations occur in the vein of the patient.

The flexible hose line 40 can also extend only over a certain portion oronly partly between the support element 20 and the catheter hub 5.

As the catheter 4 is usually formed very thin-walled, the problemfrequently occurs in practice that the catheter becomes bent whenlateral forces on the catheter hub occur during the handling thereof. Inparticular, a bend in the catheter can come about when the catheter isfirst inserted into the skin of the patient at an angle of approximately30° due to the relatively awkward construction of the catheter hub andthen, when the needle is removed from the catheter hub, the cathetercomes to bear at an angle of approximately 8° relative to the surface ofthe skin, wherein the bending of the catheter is favoured by the angledifference occurring thereby. In FIG. 9 a, the catheter hub 5 isrepresented after the insertion of the catheter 4 through the skin Hinto a vein V and in FIG. 9 b an unintentional downwards displacement ofthe catheter hub 5 is indicated, when, for example, an IV line 15 isattached thereto and/or by incorrect application of adhesive tape forfixing the catheter hub on the skin H the catheter hub is displaceddownwards. A bend in the catheter 4 occurring hereby is indicated by K.Such a bend K in the catheter prevents throughflow and is usuallyirreversible, so that the catheter has to be removed and a new catheter4 has to be inserted in the vein.

By means of the embodiment according to the present method, system anddevice having a buffer element between the support element and thecatheter hub, protection from bending is additionally provided for thecatheter 4, because possible bending between support element 20 andcatheter hub 5 occurs at the flexible protective hose line 40 which canbe bent straight again after bending, so that throughflow is notimpeded. Preferably the flexible hose line 40 is formed thick-walled andmanufactured from a correspondingly soft material, so that in the caseof bending of the flexible hose line 40, it is not damaged or madeunusable.

Thus, by means of the flexible and soft hose line 40, the forcesoccurring at the catheter hub 5 are to a great extent uncoupled from thesupport element 20 and especially from the catheter 4.

FIG. 4 schematically shows an embodiment in which a support element 20is fixedly attached at the relatively rigid distal end portion of thecatheter 4, this support element having diametrically opposite wing-likeelements 20 a and 20 b which, during the insertion of the catheter intothe vein of the patient, are at first folded together so that the needle9 can be inserted at a flat angle relative to the surface of the skin,whereupon the two wings 20 a and 20 b are unfolded and can be fixed onthe skin of the patient, for example by means of adhesive tape. Afterremoval of the needle 9 from the catheter insertion device, an IV lineor a syringe 14 can be attached at the catheter hub 5, wherein themechanical pressure P applied for this is absorbed by the flexible hoseline 40 as a buffer element.

Various modifications of the described embodiments are possible. Forexample, the catheter hub 5 can also be formed as one piece and thevalve disc 7 can be inserted in a circumferential groove in the catheterhub, as FIGS. 3 and 4 schematically show. Furthermore, a valve actuationelement 10 can be omitted, and the syringe hub 14 a or an IV line cancome to bear directly on the check valve 7 by mechanical pressure P inorder to open this valve, as follows from FIG. 3.

FIG. 5 shows an embodiment in which a valve opener or a valve actuationelement 10 is arranged in the catheter hub 5.

FIG. 6 shows an embodiment with a valve opener 10 and additionallyprovided needle guard element 13 in the form of a spring clip havingcrossing arms. The tip 9 a of the needle 9 protrudes in the readyposition over the distal end of the catheter 4. In FIG. 6, the tip 9 aand the distal end of the catheter are not shown.

FIG. 7 shows an embodiment in which only a needle guard element 13 isheld in the catheter hub 5 in the ready position, without a valveactuation element being provided.

FIG. 8 shows an embodiment in which a shortened needle 90 is provided inconnection with a support element 20, wherein at the proximal end of theshortened needle 90 a wire 91 is fixed. whose proximal end is providedwith a bulge 91 a which abuts at the proximal outside of a cap 92. Inthe ready position, the cap 92 is attached to the catheter hub 5,wherein the needle 90 extends through the catheter 4 and the supportelement 20, and the wire 91 extends through the flexible hose line 40,the valve 7 and the catheter hub 5. After inserting the catheter 4 intothe vein of a patient, the cap 92 is detached from the catheter hub 5and in this way, by means of the wire 91, the needle 90 is withdrawnthrough the catheter hub 50, whereupon the cap is removed from thecatheter hub.

The wire 91 can be connected with the end of the needle 90 by means ofwelding, bonding or crimping. When one of these types of connection isto close the end of the hollow needle, then a hole must be providedlaterally at the proximal end of the hollow needle, to guarantee thepassage of blood in the hose line 40. The user recognizes the inflow ofblood as a sign that the needle has entered the vein. The blood thenflows only up to the valve disc 7.

Alternatively, the wire 91 is connected at the proximal end with a hub8, as shown in FIG. 1.

The flexible hose line 40 is preferably formed transparent, so thatblood flowing up to the valve 7 is clearly visible. Likewise, thetubular body 20.1 of the support element 20 can be formed transparent.

FIG. 10 shows a modified embodiment wherein a releasable clamping meansis provided on the support element 20 by means of which the needle 90can be clamped on the support element when the needle 90 with thecatheter 4 is inserted into the vein of a patient. This clamping meansis actuated by folding the two wings 20 a and 20 b together, so that thepassage in the support element through which the needle 90 extends isnarrowed such that the needle 90 is fixed by clamping. In the embodimentas shown in FIG. 10 a rib 22 a and 22 b is provided on the two wings 20a and 20 b which extend into the tubular main body 20.1 in such a waythat the needle 90 can pass between the ribs as long as the wings 20 aand 20 b extend essentially in the same plain, whereas the needle 90 isclamped between the ends of the ribs 22 a and 22 b when the two wings 20a and 20 b are folded together.

In the embodiment of FIG. 10 a lug is provided on the distal side of thetubular main body 20.1 wherein the catheter 4 is held by means of ametal or plastic hub 21 as it is the case in FIG. 3.

By means of the valve 7 provided in the catheter hub 5, which valveautomatically closes after the removal of the needle from the catheterhub and can be reopened as required, especially by a valve opener 10.axial access is guaranteed at the proximal end of the catheter hub 5,through which access a syringe or an IV line can be inserted into theproximal end of the catheter hub 5. This results in a compact andspace-saving construction at the catheter hub for an infusion or forblood collection. Hereby, a syringe or an IV line can be inserted in thecatheter hub 5 as FIG. 2 shows, or a syringe or an IV line can beconnected to the catheter hub 5 via the Luer thread 6 (FIG. 1), toattach a syringe or IV line axially to the catheter hub 5.

1. A catheter insertion device comprising: a catheter hub in which acheck valve is arranged, and a catheter in fluid communication with thecatheter hub, wherein a support element is attached to the catheter, anda flexible buffer element is provided between the support element andthe catheter tube.
 2. The catheter insertion device according to claim1, wherein the flexible buffer element comprises a separate, flexibleand easily deformable hose line, the hose line connecting the supportelement to the catheter hub.
 3. The catheter insertion device accordingto claim 2, wherein the support element and the flexible hose line aremanufactured from soft PVC or soft polyurethane.
 4. The catheterinsertion device according to claim 1, wherein the support elementcomprises diametrically opposite wings.
 5. The catheter insertion deviceaccording to claim 1, wherein the flexible buffer element comprises athicker material than the catheter.
 6. The catheter insertion deviceaccording to claim 1, wherein a valve is provided in the catheter hub.7. The catheter insertion device according to claim 6, wherein a needleguard element is provided in the form of a spring clip in the catheterhub.
 8. The catheter insertion device according to claim 6, wherein theneedle guard element is a spring clip with crossing arms.
 9. Thecatheter insertion device according to claim 1, wherein the flexiblebuffer element comprises a softer material than the catheter.
 10. Thecatheter insertion device according to claim 1, wherein the supportelement is designed flat with a height dimension in the order ofmagnitude of the flexible buffer element.
 11. The catheter insertiondevice according to claim 10, wherein the support element and the hoseline have the same height.
 12. The catheter insertion device accordingto claim 11, wherein the hose line is moulded on the support element oris formed integral with the support element.
 13. The catheter insertiondevice according to claim 1, wherein a hollow needle extends through thecatheter hub, the flexible buffer element and the catheter.
 14. Thecatheter insertion device according to claim 1, wherein a hollow needleis connected to a wire, and the hollow needle and the wire extendthrough the catheter hub, the hose line and the catheter.
 15. Thecatheter insertion device according to claim 14, wherein the supportelement is provided with wings, the wings being foldable and extendingon opposite sides of a tubular main body, wherein when the wings arefolded, a reasonable clamping means is provided for clamping the needlein the tubular main body.
 16. The catheter insertion device according toclaim 1, wherein the flexible buffer element comprises a transparentmaterial.